Genomic Resources - Ricebean Portal

Integrated genomic strategy for accelerating domestication of
ricebean (Vigna umbellata) under genetic enhancement of minor pulse

Gene Details:

Gene ID	Chr. No.	Start Position	End Position	Function	View on
Vu_31133	LG8	44667797	44699218	serine/threonine-protein kinase PBS1	Map

Annotations

category		relationship type		keyword

SNP	Position	Effect	Amino acid change
C/G	44667801	missense_variant	p.Thr2Ser
C/T	44667804	missense_variant	p.Ala3Val
A/G	44667805	synonymous_variant	p.Ala3Ala
A/G	44667806	missense_variant	p.Ile4Val
C/T	44667818	missense_variant	p.Leu8Phe
C/T	44667831	missense_variant	p.Ala12Val
C/T	44667832	synonymous_variant	p.Ala12Ala
A/T	44667833	missense_variant	p.Thr13Ser
C/A	44667846	stop_gained	p.Ser17*
A/G	44667849	missense_variant	p.His18Arg
G/T	44667857	missense_variant	p.Ala21Ser
C/G	44667866	missense_variant	p.Pro24Ala
T/C	44667870	missense_variant	p.Phe25Ser
G/T	44667882	missense_variant	p.Ser29Ile
C/A	44668214	missense_variant	p.Leu140Met
C/A	44668324	synonymous_variant	p.Gly176Gly
G/T	44668358	missense_variant	p.Gly188Cys
T/A	44668617	intron_variant
A/T	44668739	intron_variant
G/A	44668960	intron_variant
T/A	44669159	intron_variant
G/A	44669349	intron_variant
G/A	44669376	intron_variant
T/A	44669486	intron_variant
T/A	44669522	intron_variant
C/T	44669545	intron_variant
T/A	44669551	intron_variant
C/T	44670159	synonymous_variant	p.Cys371Cys
C/T	44670177	synonymous_variant	p.Cys377Cys
C/T	44670342	synonymous_variant	p.Leu432Leu
A/C	44671044	intron_variant
A/G	44671097	intron_variant
C/T	44671120	intron_variant
A/G	44671121	intron_variant
A/G	44671132	intron_variant
G/C	44671140	intron_variant
G/A	44671143	intron_variant
G/T	44671146	intron_variant
G/T	44671150	intron_variant
G/A	44671158	intron_variant
T/A	44671300	intron_variant
C/T	44671309	intron_variant
T/C	44671320	intron_variant
C/T	44671347	intron_variant
C/T	44671369	intron_variant
G/A	44671375	intron_variant
T/C	44671378	intron_variant
C/A	44671379	intron_variant
T/A	44671397	intron_variant
C/T	44671411	intron_variant
C/A	44671421	intron_variant
G/A	44671426	intron_variant
C/T	44671432	intron_variant
G/A	44671437	intron_variant
C/T	44671441	intron_variant
G/A	44671455	intron_variant
A/C,*	44671463	intron_variant
G/A	44671466	intron_variant
T/C	44671468	intron_variant
G/A	44671470	intron_variant
C/T	44671474	intron_variant
T/A	44671479	intron_variant
A/G	44671492	intron_variant
G/T	44671519	intron_variant
G/A	44671520	intron_variant
A/G	44671530	intron_variant
G/T	44671561	intron_variant
T/C	44671771	intron_variant
G/A	44671791	intron_variant
G/A	44671817	intron_variant
A/G	44672131	intron_variant
G/A	44672289	intron_variant
T/C	44672308	intron_variant
G/A	44672312	intron_variant
G/A	44672324	intron_variant
T/A	44672362	intron_variant
C/A	44672395	intron_variant
G/C,A	44672417	intron_variant
G/C	44672419	intron_variant
G/A,*	44672422	intron_variant
C/A	44672435	intron_variant
G/A	44672438	intron_variant
C/T	44672439	intron_variant
G/A	44672445	intron_variant
C/T	44672451	intron_variant
G/T	44672499	intron_variant
A/G	44674087	intron_variant
G/A	44674179	intron_variant
G/A	44674183	intron_variant
T/A	44674382	intron_variant
T/A	44674438	intron_variant
T/A	44674495	synonymous_variant	p.Thr513Thr
G/A	44674501	synonymous_variant	p.Lys515Lys
C/T	44674506	missense_variant	p.Thr517Ile
C/G	44674533	missense_variant	p.Pro526Arg
G/C	44674542	missense_variant	p.Gly529Ala
G/C	44674548	missense_variant	p.Gly531Ala
C/A	44674549	synonymous_variant	p.Gly531Gly
G/C	44674565	missense_variant	p.Asp537His
T/A	44674662	intron_variant
A/G	44674743	missense_variant	p.Glu566Gly
C/A	44674776	missense_variant	p.Thr577Asn
C/G	44674824	missense_variant	p.Ala593Gly
C/A	44674868	missense_variant	p.Leu608Met
C/T	44674897	synonymous_variant	p.Tyr617Tyr
T/A	44674931	missense_variant	p.Leu629Ile
T/C	44674936	splice_region_variant&synonymous_variant	p.Phe630Phe
G/A	44674947	intron_variant
G/C	44674951	intron_variant
T/A	44675126	intron_variant
C/T	44675135	intron_variant
A/G	44675153	intron_variant
C/G	44675157	intron_variant
C/G	44675234	intron_variant
G/C	44675268	intron_variant
A/T	44675271	intron_variant
G/T	44675541	intron_variant
C/T	44675548	intron_variant
G/C	44675551	intron_variant
A/T	44675554	intron_variant
A/C	44675556	intron_variant
G/C	44675560	intron_variant
A/G	44675563	intron_variant
T/G	44675596	intron_variant
A/G	44675851	intron_variant
T/C	44675897	intron_variant
A/G	44675978	intron_variant
T/A	44676018	intron_variant
G/C	44676047	intron_variant
C/T	44676048	intron_variant
G/C	44676125	intron_variant
G/T	44676159	intron_variant
G/A	44676206	intron_variant
A/C	44676443	intron_variant
G/C	44676455	intron_variant
T/G	44676474	intron_variant
T/G	44676512	intron_variant
T/C	44676529	intron_variant
A/C,*	44676531	intron_variant
C/T	44676549	intron_variant
A/G	44676557	intron_variant
A/C	44676579	intron_variant
G/T	44676586	intron_variant
T/A	44676617	intron_variant
G/A	44676642	intron_variant
G/T,*	44676692	intron_variant
T/C,*	44676696	intron_variant
G/T,*	44676697	intron_variant
G/T,A	44676700	intron_variant
T/C,*	44676712	intron_variant
T/C,*	44676713	intron_variant
G/C,*	44676715	intron_variant
A/C,*	44676722	intron_variant
T/A,*	44676725	intron_variant
C/A,*	44676743	intron_variant
G/*,A	44676744	intron_variant
T/C	44676853	intron_variant
A/G	44676902	intron_variant
C/A	44676925	intron_variant
T/A	44676933	intron_variant
A/C	44676995	intron_variant
G/A	44677102	intron_variant
G/A	44677104	intron_variant
T/G	44677303	intron_variant
C/T	44677367	intron_variant
C/T,*	44677401	intron_variant
T/A	44677406	intron_variant
C/T,*	44677431	intron_variant
C/T,*	44677443	intron_variant
T/C	44677637	intron_variant
T/G	44677654	intron_variant
A/G	44677660	intron_variant
C/T	44677668	intron_variant
T/C	44677689	intron_variant
T/C	44677721	intron_variant
G/A	44677722	intron_variant
A/C	44677727	intron_variant
T/C	44677733	intron_variant
G/T	44677744	intron_variant
T/G	44677748	intron_variant
G/C	44677860	intron_variant
G/A	44677909	intron_variant
A/C	44678001	intron_variant
C/T	44678003	intron_variant
A/G	44678009	intron_variant
C/T	44678031	intron_variant
C/T	44678117	intron_variant
C/T	44678247	intron_variant
A/G	44678564	intron_variant
A/G	44679147	intron_variant
A/T	44679265	intron_variant
T/C	44679358	intron_variant
C/T	44679447	intron_variant
G/C	44679487	intron_variant
T/C	44679515	intron_variant
T/C	44679610	intron_variant
T/C	44679644	intron_variant
C/T	44679649	intron_variant
T/A	44680002	intron_variant
A/G	44680124	intron_variant
A/T	44680156	intron_variant
T/A	44680206	intron_variant
T/C	44680513	intron_variant
T/G	44680523	intron_variant
G/T	44680527	intron_variant
T/C	44680590	intron_variant
C/T	44680626	intron_variant
T/A	44680656	intron_variant
A/G	44680843	intron_variant
A/G	44680874	intron_variant
T/A	44681044	intron_variant
A/C	44681045	intron_variant
T/G	44681087	intron_variant
C/A	44681088	intron_variant
A/G	44681306	intron_variant
T/A	44681316	intron_variant
T/A	44681433	intron_variant
G/A	44681484	intron_variant
T/A	44681485	intron_variant
A/T	44681504	intron_variant
T/C	44681588	intron_variant
T/C	44681591	intron_variant
C/T	44681597	intron_variant
T/A	44681923	intron_variant
G/T	44682012	intron_variant
T/A	44682106	intron_variant
C/T	44682204	intron_variant
C/T	44682251	intron_variant
G/T	44682282	intron_variant
A/G	44682291	intron_variant
C/A,*	44682302	intron_variant
G/C	44682305	intron_variant
G/C	44682310	intron_variant
T/C	44682329	intron_variant
A/G	44682330	intron_variant
T/C	44682348	intron_variant
T/C	44682372	intron_variant
A/T	44682384	intron_variant
G/A	44682392	intron_variant
A/C,G	44682393	intron_variant
G/T	44682489	intron_variant
G/A	44682526	intron_variant
A/G	44682533	intron_variant
C/T	44682542	intron_variant
A/G	44682549	intron_variant
T/C	44682603	intron_variant
T/C	44682621	intron_variant
A/G	44682641	intron_variant
G/A	44682645	intron_variant
A/G	44682650	intron_variant
T/C	44682656	intron_variant
C/T	44682671	intron_variant
G/A	44682704	intron_variant
A/T	44682707	intron_variant
A/T	44682715	intron_variant
A/T	44682716	intron_variant
C/T	44682841	intron_variant
G/T	44682847	intron_variant
A/G	44682849	intron_variant
T/G	44682853	intron_variant
C/G	44682855	intron_variant
C/T	44682859	intron_variant
C/T	44682872	intron_variant
C/T	44682880	intron_variant
A/T	44682885	intron_variant
T/C	44682890	intron_variant
A/C	44682944	intron_variant
C/A	44682952	intron_variant
G/T	44682976	intron_variant
C/A	44683141	intron_variant
G/T	44683285	intron_variant
G/T	44683400	intron_variant
A/G	44683455	intron_variant
T/C	44683461	intron_variant
C/G	44683599	intron_variant
C/A	44683749	intron_variant
T/C	44683797	intron_variant
A/G	44683807	intron_variant
T/A,C	44683812	intron_variant
A/C	44683830	intron_variant
A/G	44683892	intron_variant
C/T	44683909	intron_variant
A/T	44683978	intron_variant
T/A	44684033	intron_variant
A/C	44684341	intron_variant
T/C	44684460	intron_variant
G/A	44684494	intron_variant
C/T	44684623	intron_variant
A/G	44684787	intron_variant
T/A	44684849	intron_variant
G/A	44684854	intron_variant
T/C	44684857	intron_variant
G/C,A	44684967	intron_variant
G/A	44685007	intron_variant
A/G	44685018	intron_variant
T/A	44685035	intron_variant
A/G	44685058	intron_variant
G/A	44685069	intron_variant
G/A	44685202	intron_variant
A/T	44685205	intron_variant
A/T	44685217	intron_variant
C/T	44685265	intron_variant
G/T	44685279	intron_variant
T/C	44685312	intron_variant
C/T	44685334	intron_variant
G/A	44685347	intron_variant
G/T	44685363	intron_variant
T/A	44685374	intron_variant
T/C	44685397	intron_variant
G/A	44685406	intron_variant
A/G	44685431	intron_variant
C/A	44685434	intron_variant
C/T	44685450	intron_variant
A/G	44685525	intron_variant
A/T	44685535	intron_variant
C/T	44685536	intron_variant
A/T	44685570	intron_variant
G/A	44685627	intron_variant
A/T	44685688	intron_variant
A/T	44685800	intron_variant
C/A	44685900	intron_variant
A/C	44685951	intron_variant
G/T,A	44686054	intron_variant
T/C	44686063	intron_variant
C/T,*	44686076	intron_variant
C/T	44686121	intron_variant
T/C	44686128	intron_variant
C/T	44686131	intron_variant
A/G	44686151	intron_variant
C/T	44686153	intron_variant
T/C	44686162	intron_variant
C/T,*	44686226	intron_variant
G/A	44686234	intron_variant
T/A	44686294	intron_variant
A/T	44686314	intron_variant
T/A,C	44686326	intron_variant
A/T	44686707	intron_variant
A/C	44686811	intron_variant
C/A	44686830	intron_variant
C/G	44686868	intron_variant
G/A	44686876	intron_variant
G/C	44686895	intron_variant
T/C	44686911	intron_variant
G/A	44686920	intron_variant
G/A	44686939	intron_variant
G/A	44686940	intron_variant
A/G	44686980	intron_variant
T/C	44686991	intron_variant
G/A	44686999	intron_variant
G/C	44687011	intron_variant
T/C	44687028	intron_variant
C/T	44687056	intron_variant
C/T	44687094	intron_variant
T/C	44687117	intron_variant
T/A	44687271	intron_variant
G/A	44687694	intron_variant
G/T	44688194	intron_variant
G/A	44688195	intron_variant
G/T	44688200	intron_variant
G/A	44688229	intron_variant
C/T,*	44688237	intron_variant
T/A,*	44688243	intron_variant
G/A,*	44688245	intron_variant
T/A	44688247	intron_variant
T/G	44688252	intron_variant
T/G	44688254	intron_variant
A/G	44688257	intron_variant
T/A	44688258	intron_variant
A/G	44688275	intron_variant
G/A	44688332	intron_variant
T/C	44688403	intron_variant
A/G	44688444	intron_variant
A/C	44688446	intron_variant
C/T	44688471	intron_variant
G/C	44688486	intron_variant
G/A	44688502	intron_variant
A/T	44688535	intron_variant
A/C	44688543	intron_variant
G/T	44688555	intron_variant
C/T	44688567	intron_variant
C/T	44688640	intron_variant
A/G	44688648	intron_variant
A/G	44688662	intron_variant
A/G	44688724	intron_variant
C/T	44688725	intron_variant
T/G	44688888	intron_variant
C/T	44689086	intron_variant
T/C	44689174	intron_variant
C/T	44689202	intron_variant
A/T	44689205	intron_variant
G/A	44689311	intron_variant
G/A	44689328	intron_variant
G/T	44689580	intron_variant
A/C	44689706	intron_variant
C/G	44689902	intron_variant
G/C	44690031	intron_variant
G/C	44690220	intron_variant
A/T	44690508	intron_variant
T/A	44690514	intron_variant
T/A	44690521	intron_variant
T/C	44690534	intron_variant
T/C	44690555	intron_variant
T/G	44690860	intron_variant
G/T	44690960	intron_variant
C/T	44691042	intron_variant
G/T	44691071	intron_variant
A/T	44691098	intron_variant
T/A	44691195	intron_variant
T/G	44691196	intron_variant
T/C	44691430	intron_variant
A/T	44691433	intron_variant
C/G	44691460	intron_variant
T/A	44691510	intron_variant
A/G	44691563	intron_variant
G/T	44691575	intron_variant
T/G	44691596	intron_variant
A/G	44691622	intron_variant
C/T	44691624	intron_variant
G/A	44691625	intron_variant
C/T	44691639	intron_variant
T/G	44691668	intron_variant
A/G	44691680	intron_variant
C/T,*	44691722	intron_variant
G/A	44691744	intron_variant
C/A	44691789	intron_variant
A/G	44691837	intron_variant
T/C	44691838	intron_variant
A/T	44691866	intron_variant
C/T	44691880	intron_variant
G/T	44691881	intron_variant
C/T	44691904	intron_variant
A/G	44691921	intron_variant
T/C	44691986	intron_variant
G/A	44692138	intron_variant
T/C	44692145	intron_variant
G/T	44692215	intron_variant
C/T	44692278	intron_variant
C/T	44692289	intron_variant
C/G	44692335	intron_variant
G/T	44692366	intron_variant
T/A	44692467	intron_variant
G/A	44692596	intron_variant
A/T	44692677	intron_variant
G/C	44692680	intron_variant
C/A	44692696	intron_variant
T/C	44692738	intron_variant
C/T	44692850	intron_variant
A/G	44693009	intron_variant
G/T	44693073	intron_variant
A/T	44693091	intron_variant
T/G	44693262	intron_variant
C/T	44693316	intron_variant
C/A	44693322	intron_variant
G/A	44693323	intron_variant
C/T	44693530	intron_variant
A/G	44693762	intron_variant
C/G	44694003	intron_variant
G/T	44694046	intron_variant
G/A	44694095	intron_variant
G/T	44694100	intron_variant
G/C	44694103	intron_variant
G/C	44694112	intron_variant
G/A	44694121	intron_variant
T/C	44694124	intron_variant
C/T	44694128	intron_variant
C/T	44694138	intron_variant
T/C	44694160	intron_variant
T/C	44694165	intron_variant
G/A	44694169	intron_variant
T/C	44694174	intron_variant
A/G	44694181	intron_variant
G/A	44694184	intron_variant
G/A	44694185	intron_variant
T/C	44694248	intron_variant
A/T	44694250	intron_variant
A/C,G	44694259	intron_variant
A/T	44694262	intron_variant
A/T	44694264	intron_variant
T/A	44694272	intron_variant
T/A,*	44694278	intron_variant
A/G	44694285	intron_variant
G/T	44694316	intron_variant
C/T	44694328	intron_variant
G/A	44694332	intron_variant
T/C	44694334	intron_variant
C/T	44694366	intron_variant
T/A	44694372	intron_variant
C/A	44694377	intron_variant
T/A	44694383	intron_variant
A/C	44694386	intron_variant
A/T	44694391	intron_variant
G/T	44694401	intron_variant
G/C	44694464	intron_variant
C/A	44694484	intron_variant
G/A	44694491	intron_variant
C/T	44694509	intron_variant
A/G	44694514	intron_variant
T/C	44694520	intron_variant
T/A	44694539	intron_variant
A/G	44694576	intron_variant
G/A	44694582	intron_variant
G/A	44694586	intron_variant
A/G	44694645	downstream_gene_variant
C/T	44694659	downstream_gene_variant
C/T	44694690	downstream_gene_variant
C/A	44694705	downstream_gene_variant
A/G	44694712	downstream_gene_variant
G/A	44694714	downstream_gene_variant
G/A	44694727	downstream_gene_variant
A/G	44694731	downstream_gene_variant
T/G	44694735	downstream_gene_variant
A/G	44694750	downstream_gene_variant
T/C	44694774	downstream_gene_variant
A/G	44694779	downstream_gene_variant
G/A	44694809	downstream_gene_variant
T/G	44694845	downstream_gene_variant
T/C	44694846	downstream_gene_variant
A/G	44694851	downstream_gene_variant
T/A	44694894	downstream_gene_variant
T/A	44694908	downstream_gene_variant
A/G	44694958	downstream_gene_variant
A/G	44694969	downstream_gene_variant
G/C	44695318	downstream_gene_variant
G/A	44695391	downstream_gene_variant
C/T	44695414	downstream_gene_variant
T/A	44695429	downstream_gene_variant
T/C	44695457	downstream_gene_variant
C/G	44695505	downstream_gene_variant
T/C	44695530	downstream_gene_variant
T/G	44695532	downstream_gene_variant
G/T	44695624	downstream_gene_variant
G/C	44695759	downstream_gene_variant
G/C	44695912	downstream_gene_variant
T/C	44695950	downstream_gene_variant
A/G	44695955	downstream_gene_variant
G/C	44696017	downstream_gene_variant
C/T	44696069	downstream_gene_variant
A/G	44696120	downstream_gene_variant
G/A	44696122	downstream_gene_variant
G/C	44696124	downstream_gene_variant
C/T	44696126	downstream_gene_variant
C/A	44696147	downstream_gene_variant
C/T	44696178	downstream_gene_variant
G/A	44696214	downstream_gene_variant
T/C	44696217	downstream_gene_variant
A/G	44696245	downstream_gene_variant
C/A	44696262	downstream_gene_variant
T/A	44696311	downstream_gene_variant
A/T	44696408	downstream_gene_variant
C/A	44696410	downstream_gene_variant
T/C	44696416	downstream_gene_variant
G/A	44696422	downstream_gene_variant
C/G	44696514	downstream_gene_variant
C/T	44696517	downstream_gene_variant
C/T	44696542	downstream_gene_variant
A/G	44696563	downstream_gene_variant
A/T	44696586	downstream_gene_variant
A/T	44696593	downstream_gene_variant
T/G	44696594	downstream_gene_variant
C/T	44696633	downstream_gene_variant
C/A	44696642	downstream_gene_variant
C/T	44696696	downstream_gene_variant
A/G	44696711	downstream_gene_variant
T/A	44696713	downstream_gene_variant
C/G	44696725	downstream_gene_variant
C/G	44696736	downstream_gene_variant
G/T	44696754	downstream_gene_variant
T/A	44696794	downstream_gene_variant
C/A	44696802	downstream_gene_variant
C/G,*	44696832	downstream_gene_variant
A/G	44696880	downstream_gene_variant
C/A	44696930	downstream_gene_variant
T/C	44696947	downstream_gene_variant
C/T	44697005	downstream_gene_variant
A/G	44697126	downstream_gene_variant
A/C	44697169	downstream_gene_variant
A/T	44697184	downstream_gene_variant
T/C	44697265	downstream_gene_variant
A/G	44697288	downstream_gene_variant
A/T	44697383	downstream_gene_variant
G/C	44697436	downstream_gene_variant
T/G	44697512	downstream_gene_variant
T/C	44697547	downstream_gene_variant
G/C	44697713	downstream_gene_variant
G/A	44697726	downstream_gene_variant
A/T	44697735	downstream_gene_variant
G/C	44697778	downstream_gene_variant
G/C	44697824	downstream_gene_variant
G/A	44697945	downstream_gene_variant
A/G	44697947	downstream_gene_variant
G/A	44698001	downstream_gene_variant
C/A	44698071	downstream_gene_variant
G/C	44698081	downstream_gene_variant
T/C	44698139	downstream_gene_variant
A/T	44698148	downstream_gene_variant
G/A	44698156	downstream_gene_variant
T/A	44698191	downstream_gene_variant
C/T	44698342	missense_variant	p.Pro658Ser
G/A	44698353	synonymous_variant	p.Ser661Ser
T/C	44698506	downstream_gene_variant
C/T	44698561	downstream_gene_variant
G/T	44698618	splice_region_variant&intron_variant
G/T	44698621	splice_region_variant&intron_variant
G/A	44698644	missense_variant	p.Met716Ile
G/A	44698646	missense_variant	p.Arg717His
T/A	44698736	missense_variant	p.Phe747Tyr
A/G	44698902	missense_variant	p.Asn770Ser
A/G	44699116	synonymous_variant	p.Leu841Leu
T/A	44699124	missense_variant	p.Ile844Asn

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_31133.1

MTAIFCLLGLCATIIISHASAQTPFCDNSKGNYTVNSAYHNNLNTLLSSFSTRAQVNYGFYSSSHGQGLDKAHAIGICPSYRTPDECIRCLKDSRVFLTNNCPNQKEAILWNANCTLRYSNRSMHGLMENQPTVLLYYTLEVKGSIEQFNVALQSLMRNLTRIAASGDSRHKSATGSAPAPYFQTIYGYTQCSPDLSSEDCSKCLEESISKIPDCCKGKAGGNVLKPSCRIRFDPYIYDGPSPYSSYPVTPQNFHYFCDQDNDTGVYTANSTYHTNLDTLLSTLVSNTEIHYGFYNFTNGENTSKVYAIGVCRGDVEPENCRTCLNGSRTNLTELCPNRKEAIGWYEDEKCMLRYSDRNIFGLKETGPAFYANDDRNASDLDEFIKDVNTLLRNLSSIAALGDSRVKYAAAGTSSDSKVIYGLVQCTPDLGNSECADCLSQSIELLPIDCSEGKISGRVVRPSCNIRFPIDCSEGKISGRVVRPSCNIRFETEKFYGDPAFVPPSPPPSTTALLERLHDDDNDGIDPSEALAIRFNMIRDATNDFSDSNKLGQGGFGTVYRGTLPNEQEVAVKRYSATSRQGDAEFKNEVLLLAKLQHRNLVRLLGFCLEGTEKLLVYEFVPNKSLDYFLFDETKRAQLDWDRRFKIIAGTARGILYLHQDSRLRIIHRDLKAGNILLDEEMNPKIADFGLARLFVVDQTHEDTQRVVGTYGYMAPEYALHGQFSEKSDVFSFGVLILEIVSGQKISSIQHGEETGDLRDIAWRSWREGRARNIVDPTLNNGSESEIMRCVHIGLLCVQDNAAARPTMASVVAMLNSHSFSLQVPVAPALYGNAMSGIFADMQLWEINSGTTRSRESTNRSDQDSINEASITDPYPR*

CDS Sequence:
>Vu_31133.1

Promoter Sequence:
>Vu_31133::LG8:44665797-44667797(+)

ATTAGCTCACTTTTACAAAAAATATGACCCAATTGAGACCGAAAAAAAAAACGATGACTCATTTGAGATTCCTATATAAATATGAGGACCATCCGAGGATTTAAACCTTAAAATAACTTTCATCTTAGTTCATCTTCATGTTTGTTAGACAAATTATTTTTGTCTGTTGTCTTTTCTTTTTCATAATAATATAATAATAAAATAAATTAGTAGAAATATAAAAGTATGAACATTAAAACGAGACTTCCAACCATCACACCAAACTCCTTAATGAGGCAAGGAAAAAATAGCACAGAAAAAAAAAAGAGAGGACCACGCTATTAATGAGTCCAGGAAAATAGTAGACTTTTTCACATGCCAGAATGATCAAAGCAGACCCATTTTTCTGCCAACTCACTGCAATTACTGAGACTTTAATCTTTTTCTTACCAATTTTTTAAGCTCATCTTTAGTAGAGTTAAGCTGTTAAATGACTCTGTATTCTATATTTTATCTGTTAGTCTTTTTTTAGAATAATTTAAAAAATATATATTTAATTCATCTAAGTCACACATAAATAATTAATGTTCCAACAACATCATACTTAATTAAAGTTTTCAATAACAATACATATAAGCATCTAATTGGAATAAAATACGTAGTCTATAAAACATTATGCATTTTAAATCATCTCTACATCTTAATAAAGAATAAAAATAAACATCTCGCTTCCAATTTATGTACAAATCAATTTTAGCTTGTAAAAAAATCATAAATATCTATAATTACACAATCAGATTTTATATAATATGTCAGAAGTAGAATGTATGAATTTACGTAAGATTTAGTTTTACATATATGAAATAGTTATAAAAAAATGTGGAGAAAATGTAAAGTGACTGTTGTAAAACAGTTTTCAGCAGTTAATTTTTCAAATTGTGTAATGTATAAATCAATTTTAACTTGTAAAAAATTATAATTATTTATAAAATATTTAATGAAAGTATATAAATAAAATAAAAAAAATTTGTGAATTTAAAAAAAGAAAAAGCACCTCCTTTTACGAGGAAAGTGATAGAATTAATTGAATGAAAGTGATATGTTAACAATTTTTTTTAATAATTTTTTGACAATAAACTATGTGTTAGCATTTTATTGGTTCGTATATTTAAAATGTATTAATTACAAGTTATCGTAGATATCGTAAAAAAAAATTGTAAAAAAACATTTTCTTTAATTGAAGGATAGAAAGACAAAGGCCTTTCGAAAACCAGTATCCTTTGACACAACAGAGACAACGTTAACTACTTAGGAAAACAGGAAATCAAATTAAATTTTAAAAATATTAGATGTATTTTAGTTTCTCTTTTGTTATGTAAAATTATATTGTCAAATGTATTTTTTTTTTAAATGTCTGTTAAATTCAAATTGAATAACGGAAAACCTTATGAAGTCGTGACTTTGGTTCATGTTTCACGTAAAAGACAGATATATTTTTGTTAGTTTAATAGAAATAATAATTTTTTTATATTTTATATTATTTGTTATGTAAATTAATTTTTTTATGTAGTTATTCTTTGGATATTGGACAAGTTTGTTAAAAAAAAAACGTTTTTTTAACAATTCTTTTATAACCGTTTACATAGTAATAATTTATGTAGCATCGTACTTGTCAGAAGGCTGTCAGAAGATTGGCTGTAGACAGCTTCGCGGTAACGACCCACCACCTACCACCCTCAATCTTCGCCAACAAAAGTTCTTTACATTCGCAAGCTAGCAAGCTATTTCGACACCAATTAATTTATTATTTATTTGTTATTATATTAACATACTTTAAATTTAATAAAAATATAATACATATATTATGTCAAAATATTGAAAAAAAACATTAATATTTGATTTTCTTATCCAATACAATGAAACCGTCCAAAAATACTCAGTTGATCACACTCTGAAAGAAAAGCTGCTTTGTAAGCTTCAAATCCTCATTCTTGGTTCCATATGTTACTCCTGAATCAGAA

Gene Sequence:

>Vu_31133(+)

ATGACTGCAATTTTCTGTTTGCTTGGTCTCTGTGCCACCATAATCATATCGCATGCAAGCGCTCAGACACCATTCTGTGATAACAGCAAAGGCAACTACACAGTCAACAGCGCTTATCACAACAACCTCAACACCCTCCTATCCAGTTTCTCTACCCGGGCCCAAGTGAACTACGGTTTCTACAGTTCCTCTCATGGCCAAGGCCTAGACAAAGCACACGCCATTGGGATCTGTCCTAGCTACCGTACACCGGATGAATGCATCAGATGTCTCAAAGATTCCAGAGTGTTTCTCACAAATAACTGTCCAAACCAGAAAGAGGCAATTCTGTGGAATGCTAATTGCACCTTGCGTTACTCTAACCGCTCCATGCATGGCCTCATGGAGAATCAACCTACGGTGCTACTCTATTACACGCTGGAAGTAAAGGGTTCGATTGAGCAATTCAACGTAGCGCTGCAGAGCTTGATGAGGAATCTAACACGCATAGCTGCGTCTGGTGACTCTCGTCATAAGTCTGCTACAGGCAGTGCACCTGCTCCATATTTTCAAACCATATACGGTTACACGCAGTGCTCGCCTGATTTGTCTTCCGAGGATTGCTCTAAGTGTTTGGAAGAATCTATCTCAAAAATCCCAGATTGCTGTAAGGGCAAGGCTGGAGGCAATGTTTTGAAGCCCAGTTGTAGAATTAGATTTGACCCTTATATCTACGATGGACCTAGCCCTTATAGTTCTTATCCAGGTACTACTCCTTATACTATCTTAATTAATTCAATTGCTCCTGCTGAACTAAATTGATCCATGTACATTTTTTACTTGTCTTACAGAATTTAAACATTTTCTTCTTCCACTTCTAGTGTAGTAGTTTGCTAAAATATGGTTTTCTCGTTGTTTTAACATCTAGACAGAGTTGGTAAAAAACGTGTATAATCGGAAAATATAAAAAGAAAATTGGGATAGTTTATCCCGAAAATTACAGAAGTGAGACTGTTGATTAAAATTTACACTTCAATAATAAATATTTATGAATAGAGTTAGTTAGGGTTGTTAGATTTGTTAAAATTACTAGATTTGTTAGAATTATTACTTAGAAGTAGTAATCAGCTAAGAAATTAGGGTTTTTCAAGTTTTTTCCCTTTTCCTTTGCCTATTTAAGGTTAGGGTTTTCTTTTCTTCTATGTAACTAAGAATAATCATACAAAATACACAACAATAGAAGGCAAGTTCTCGTTTCTCACCTCTTTTCGTCTTTCTCTTGGATCTCCTGCTTTCCCTCCTTTCGGCAGCCAGCCATGGGAGAGCTTTCTCCCTTTTTAGCGGGTTCTTGGATACCAGTTCTAATAATGAATCCTAAAGACTTTTCAATTGAAGTGACCATGAGTTCTGGCAATTTTTTTATAAAATTCTGAAAAGTCAAAGTTTTTATGAGCTATGAAGACTTCTTTATAAAATTTTTGAACAAAATTAGTTAAAAACGAAGATTTTTTAATTTATAGGATGTCGTTCCTAGTGATGATGACTTTCAAATGAACCAAATCATTCTCATGACGACTTCGATTGGAATGAATTTTTTTATGTAATTGGAATGAAAGATTGGAAGACTTAAGTTTATGGAAGAGATTTGTTGAATAAATTTAAATTAGGAAAATTTATTTGTAATTTGGTTTGACTTTTATTTTATTTGGTTTCTGTTGCTGTTTTCAAACTCATTGTTGCGGTTTCTGTTTTTCGTTTTGCTGTTGCCGCATTTGTTTAATATCCGGCCAGGTTTTATTTCGTATCAGTTGTTATTTTACCTGTACTCGGCCCAGACGCGCATGCTTATTTAAAGGCTTGCGCGATGATTCAATGATATACGTAGTGAAATTACACCGAATTAATTGCAATACAGTGAGGTGTGTGTCGTATTTTTATACAGCTTTCGCCAAGGCTACTTTACTTTCACTTTACTTTCACTTTCGTCTTCTGATAACAAATTTTATATCTCAAGTTACTCCACAAAACTTCCACTACTTCTGTGATCAAGATAACGATACAGGAGTCTATACAGCCAACAGCACCTACCACACCAACCTCGACACCCTTTTGTCCACTCTCGTTTCCAATACAGAAATCCATTACGGTTTCTACAATTTCACAAACGGCGAAAACACTAGTAAAGTGTACGCCATTGGGGTGTGTAGAGGAGATGTTGAGCCAGAGAACTGCCGCACATGCCTCAACGGTTCCAGGACCAATCTCACTGAACTTTGTCCAAACCGAAAGGAAGCAATTGGTTGGTACGAGGATGAGAAGTGTATGTTGCGCTACTCAGACCGCAATATATTCGGACTTAAGGAAACTGGACCTGCTTTTTATGCTAACGACGACAGAAATGCATCGGATTTGGATGAGTTCATTAAAGATGTCAACACCTTGCTACGTAACCTAAGCAGCATAGCTGCATTAGGTGACTCTCGTGTTAAGTATGCTGCAGCTGGTACATCATCAGATTCTAAGGTCATATATGGTCTAGTTCAGTGCACACCGGACTTGGGAAACTCAGAGTGCGCTGATTGCTTGTCTCAGTCCATTGAACTTCTCCCGATAGATTGTTCTGAAGGCAAGATAAGTGGTAGGGTTGTTAGACCAAGTTGTAATATTAGGTTCCCGATAGATTGTTCTGAAGGCAAGATAAGTGGTAGGGTTGTTAGACCAAGTTGTAATATTAGGTTCGAAACCGAGAAGTTCTATGGAGATCCAGCATTTGTACCACCATCTCCTCCTCCTTCCACCACGGGTACTACTTCTTATACTATCTTAATTAATTCTATTGCTCTTTCTGAACTAAACTCATGCATGTACAGTTTTTACCTGTGTTACAGAATTTATTTAAACATTTTCTTCTTCCACCTCTAGTGTAGTAAGCTTTTAGGTAATAAGCTCAGCATATTATGTAGATAATTGTGAGGTTTTGTTTTACCTATTCATATGACAGAAAAAAGTAAATGGCACTGCTAAAAAGCGGGGGAAAATCTCAACGAAAATAATACTTAGTCATCTCCATCACAGCACTTTACAGTTATTATGGGTAATTACTGTTTTTCAAAAAGTTCTATTCTTGTAACTGTTTAAGGGGTCACCGAGTCAATTATGATGGAAGAACCCAAAACAAAGGACTCACAAAAAAGTGTAATAAAACCCCAAAATAATTTCTACCACTGCATATTCTCTTAGGTAGCCAAAAAACTGATAAATACGTAGTAAGAGAGTGAAAACAATGGACAGCCAAATCCTAATAGGCAACTAGTACTAGTGAGAGATAAAAGAAATATTGATACCAGTGGTGGTAGAGAGATCCGTCGTTGTGTGAGACACTGACAATATACCCTTATGTGTCTTTATTTATTATTATTTTAAGTGTTTTTAGATCTAAAATTATGATATTACTGATTGTAAATATTGTGTGTAAATGAGTTAAATTATCTAGGTTTAATGTCTCAATAGGTCCCTATTTTTACTCAGAATTTCAAATAGGTCCTTTTCTTTTTCGGCATCTCAACTGAGTCCTTATTTTTGTAAAATTGAATCAAATAGGATCTTTCTGTCAAATTGAAATGACGCCGTTAAGACATTTCACTGCAGTGGAGGTTCAACGGCGTCATTTCAATTTGACGGAAAGGTACTGTTTGATTCAATTTTACAAAAATAAGAACTCAATTGAGATGCCGAAAAAGAAAGGGACCTATTTAAAATTCTGGGTGAAAATAGGAATCTATTGAGACATTAAACCAATTATCTAAAGTGTTCTATTATATATAAGAAATTAAGTATAATACAATGCAATAAGAAAAGAAATTGAGAAAAGTAAAAAAATATCAGTAACATGTTTAAAAATTAGATACCATTTTAGTAATGGGTCGAGGTCAATGGTCTTCAACTTCAAACAACTTCCAAAACAGTCTGGCAATCCAAGTCTTTATTTCAATATTTAGTGATATAACGACAAAAGGTATTTTGATATTTAAGTCACTAAATGATTATTTAGTGATTAAAGTCAATTCTCAACGGTGAAATAAACGTGATTGCTTATCTTTTTATCATAAACTTATATTTATAAATTTTAGAATGGATTTTTAATTAAAATCAACCTAATCATGTAAGAATTGATAAACATACTTACCTTTAAATAGACTTAATTTATAAACTTGATCAATCATTAAGTGAATTACCGATCGATTAGTAACTTTCTACTAAGGAGTGTCCGATTTTTGAGAACTAACTAAGGGTACGAGGACTCATCAGAAAGTCATAAATATCATTCTGTGTGCTATAAAGAAACTATAAATGTTACGTGTGTATTTAATGAAACCAACCATCTTTATAAGAAACAATAAATGTTTCCAGATTTCGTAATATTTAAAAATTGAGTTTTTCTTTAGGAATTAGGATCTATGAAGTAACAAGTTTTAACAAACCGTGTTGAGATGGCCTTAATAATTAGTTATTGGATTTGTTGATGTTTTATGTATGGTATTTATCTGCGCAATGTCCCTCTGAGGATTCTGATTTGTGCAGGAAAGTACGCAATTATCATAGCAGTGTCAGTTGTTGTACTTGTTTCCGCGGTGCTTACTAGAGGTGTCATTTCAACCCCTGGCCCATGGGTTGACCCTAACCCCTTCTAAAATTAAGCCCCAATTTTCTAGCCCCCTTAATAGGGGGCTTTTTAAAAGCCCCAACCCCTAAAGCCCCACATAAAGTGGGCTGGGGCAGGGTTAGGATGGGGCTAGCCCCCAAACTAAATTAATTCACTTTTAATGTTTTTTTAGTTATTTCTTTTATTTACTTTACAAGTTCAATAATTTTCAAAATTTACATGATATTTAATATCTTTTTAATTAAATATAAATGTATAAATATTGATTTTATAAAAACTTATTTAAAATAATTTTTTAATTATAAGTATATTTTAAATATATAATTTTATTATTTTGGAAAGTTAAAAAAGAAAATTATTATTATTATTTTTATTTAAAAGAAAATAAAAAAATTTCAAAAAATAAATTATAAAAGTAACACAGTTGAAAATTCGATTTTTCAATAATCGAATTCTGATATCTATATAAATATTTGAAATATTAATTATGGATAGATTTTAAATTTAAATCTACTGATTGGATAAATTTTTAATATCGGTGTAAAATTTTTATTTTTTATAGTTTGTCATATAAAATTCTTTTGTTGAATGTTTTGTATATATAATATATATATATATATATATATATATATATATATATATATATATATATATACACATTAAAAAATTAAACCACAAACTTTGTAAAGTTTAAAATTAATTTCACGTAATAAAAGAACTAACTTTTTTAGTGAAAAATCCTTGTTAGGCAAAATTCTTATAAATATCATATATGTCACTATACAAGATCTAGATGTAATCCTAGTGGTTATAAAATCATATTTTTTTCTAACCTTTTAGATTAAATTACTATTTTAAAATCATGCTTATCTTTATCCAACAAAGATCGTTTTTATTAAATTATTTATCATAATTGAGCCGATTGTAATAAAAAATAATTAAATAATAGATACAATATTTTTAAATAAATATAATGTTATAATTTATAATACTAAAATTCAAATTATTATTGTATTTAATTATTAACATATAAAATAAATAAAAATTATAATAATTATAATAATAAATAAATTACATCAATGTCTCTTAATAAGAAACTAATAAAAAAGACAAATAAATATAATATAAAATATATGAAAAAGACATAAAAATATATAAATTGATGTAAATGACTAAATAATACGTTTCATAAAAATTTGTAAATAATAAATATTAATTTTATTAAATTTGGAAAATTAAAAAAGTTATTAAGTCAAAATTTTAACATGTTCACACCAATTAAAAATAATGTAATTTTGATCACAAATCTTAATCGAATGATATTGATTTAAACTAGTGACAAAATAGATTACCATCAATAAATAAATTCGTTAGTCCATCAAAATTTTACATATTAAATTAAATTTTTTAACTTTTAAACCTATTTTATGTGGATATCTCTGAATCGTCAAATTTACAAACCAAAATTAAGATGAAAAAATTATCAAAATAAAATTTGAAAATTAAGAATAATTGTATAAAAGCATTATTATTAAACTAATTAATATAGAAACAGTTATGAAGTAGAAAATTAATTTTATTGGTAAAAAAATATAATTATACATGAATCAATTATGGTTATAAGTTATTACTAACAAAGATAAAATGAAAACTGGATAAAAAATACATATGATTTGTGATTACTTGTATGATGATATTATGTTTCTAGACGTTAAATTTTGTAAAAAGGAAAGCCCATGGGCCGGCCCTGGCCTATAGGGCTTTGGGGGTTTTTAGCCTTGTGGGCTTTTTTAGTAAAGAGTTTTTTTGGCCCTATGGGCTTTTTTGGCCCCAACCCACATGGGCTAGGGCCAAATCTTATTAAAGGGGCTCATTTGACAGCTCTAGTGCTTACTTTTATGCACATTCGTTTAAACGGGAGGAACTCATGGACAACTTTGGAATGTAAGTGGAAGCACTTGTTTACCGTGACATATCTTCTATTTAACGGTCCTGCATTTTTGTAGTGTTTTAAATTGAGTAATATTTTAAAACCGTTCCTTGTGTGAAGCTCTACTAGAAAGACTACATGATGATGATAATGATGGAATTGACCCTTCTGAGGCATTGGCAATCAGATTTAACATGATACGAGATGCTACAAATGACTTTTCTGATTCTAATAAACTCGGACAGGGTGGATTTGGGACTGTTTACAGGGTAAGACAAGTGTCAAGCATAACTTCTTCAAAATATTATATACATACACTACTTGCAAAGAACTTACCGTTCCTGACTGATGTTTTCAGGGTACGCTACCCAATGAACAAGAGGTTGCCGTCAAAAGGTATTCAGCTACTTCTAGACAAGGAGATGCAGAATTCAAGAATGAGGTGCTTTTATTGGCCAAACTTCAGCACCGAAATTTAGTTAGACTACTTGGTTTCTGTCTGGAAGGAACAGAAAAGCTACTTGTCTACGAATTTGTTCCAAATAAAAGCCTTGATTACTTCTTATTTGGTAGGTTTAGTTTGAATGTCTGGTTAATTGGACCATACCTCTGCTATTTCAGTTATGCCTTGACACTTAGCTTAATTACATAGTCTTAAGTTTCATGTATGTCTTGTTTGTGTAGAGGCAGATGAAACCAAGAGAGCCCAATTAGATTGGGATAGGCGCTTCAAAATCATTGCAGGTACTGCTCGAGGTATTCTCTACCTCCATCAAGATTCTCGATTGCGCATTATCCATCGTGACCTCAAAGCTGCTAACATTCTCTTAGACGAAGAGATGAACCCTAAGATAGCAGATTTTGGCGTGGCAAGGTTATCTGTTGTGGACCAAACTCAAGATACACAGAGAGTTATTGGGACATAGTAAGTAGTAAAACTTTAGCTTATGAATGTTTAGGTTTAGCAATTGAAAACCGCCGTATTTTCGAAGATGATTGTAAAAGGGTACTGTTTAACTAAGTTTTTTCTTACTCCACTCTAATGCAGTGGATATATGGCACCTGAGTATGCACTGTGTGGAAAGTTTTCAGAGAAGTCAGATGTTTTTAGCTTTGGTGTATTGATGCTTGAGATTGTAAGTGGTAAGAAACTCCTTAGCATTCAAGAAGGAGAGGAAACGGGATATATATGCCATTTTGTAAGTCGGAATTTTGTTCCATTTATGTTGTTTGGAGTTGGAAGTATGAAATTTGAGAAGCTTACGTGAGTGAAAAAATTGATGCATGCAGGCATGGCGAAGATGGAGTGAAGGAAGAGCAAGAGATATTATAGATCCTGCATTAAACAATGGTTCAGAAAATGAAATAATGAGATGCATCCATATTGGGTTACTGTGTGTTCAAGACATTGCAGCTGCGAGACCCACCATGGCTTCCGTTGTAGCCATGCTGAATAGCCATTCTTTCCGTCTGCAGGTACCTACGGCACCTCCATATGGGAATGCTCTTTCTGGAATCTTTGCAGGCATGCAGTTATATATGGGAGATTAATTCAGGGACAATAAGATTAAAAGAATCCACCAATAGATAAGATCATTCGCTCAATGAGACTTCAATTACTGAGCCATATCCTCGCTAGATCTTCATCCTTAGTTTATATCTTGAGATTAAGAAGAATGCCAAAGCAATGCTACTAATTACAACATTTGTTTAATAGCTTATACATCTTCGTTGCTTATTGTCTGTATAAGCTGCTGTTTAATGTTTTTTTTAAGCCTTGAAGGAGGAATGTTATTGAATAAATATTTTAAATATTAATTATATAATTTATAAAATTGCATTAAACTGAACACTCTCTCTTCTACCGTCAATTGGCCTTTTTATATAAATGCTTAAATTTAGGTTAGAATATTGTAATGATATTACAAATTTATTAATACACGAATGATAAAATTGAAGTTTTTAAATAAAAATTAAATTTACAAGTAACAAAATATTAATTTAAATTTACAATTTTGAAATAAATTTTCAAATGATTGAGGGTTGGATGAATGGGACATAAATAATCAAGACTAAAATCGGTACAGTGAAGCTTATAAGTTAGATAGTGAAATTTTATCTATCTGGTGCAGTTATTTTAATCTATCAAAATGAATAAATTTAAAAAAAATACGAAAATTCACCAAAGAAAAGCTTATAATCCTTGCTTGATCAATGGAAATCTGTATTAAAGTTATATCTGGTGCAATTTTTTTAACAGGAAACAAAAAAAAGACCGTGACAAGTCAACACAATTATTTCACTAATTTTAGAGTTTACTTTTGTAATGTAGTAAGATATTTATTAGATAAAAAAATATCTTAGATATTTTAAGCGGTTAAGATATTTATGAGTAACTAACCACATTTTTAGGTAAGGTTAATTTTATTTGGCTTATAAATACAATGACAGGCAAAAGTTCAGGGACGTTTCCTCTACGTTCTATTTATGCCAGAGGAACTCTAGATAATAATATAATCACTTTCTGAGCTGAAGACACACTGGGAAGTATTTACACCGAAACATTTTTTATTTTATTTACCACAAAAAACAAAACAACATTAAAACTCTGCCGTGTAGTACATGCAATTCGACGCTGCATTTAATTTGAACCTTCCCATTTTCTGGTCAACCTTTTATAATTTCCCTCTTCTTATTTATGATTCAGATTTTTGTTTTTTTCTTTTTAAACGTGTGCGGTGAAATGATTGAATATGATGATAATTATTTCAAGAAACAGAAAGAGAAAATTATTTTTAATTCATTGATATTTTTTAAGAAAATATATATTAACCATGAATATATATTAATCTCTAATAAATAATATAGAATGAAATAGAAATTTATTTAAGAGATATATGGTTAAACTTGAGTCCTTAAAAATTGGATATAAAATATAAAAACACAATTAATATAATTAAATAAATATGAATTACATATCTAATTTATGGATGTTGTTCCCTCCACCAACTCATGTGCTCCCAACATCTTTCCATTTTTTTTTATTCTAAAAATATCATACACCTCTCCACAATCTTATTCATTTTTCCTCAACAATCTCTCTCTTTCTCTCTCCGCATTGGAGCATTCACATGATAAATATACTCGTTGAAATCAACAATGTCTCTGTCACCCTAAATTATAGTCTTTTATCTCTTGGAAAATTTCCAAATTACAACGCAATGATATCTGTCTAAAAATTTGTTTAATGTGCAAAATATTCAATAATTTCTGTTAAGAACATAATTATAGAATTTGTCCTCTTAATTATATTTTTCATATTCATATTAGTTAGCACTTATTAAGGTTTTACTGTTAAAGAATCTACCATGAAAAGGTTTTATACAAAAGTTCCAGAGTGTGTGTTGCATAGCACTGGGTTTGGAGATATTTCCAAAATCCTTAACTACTCTAAAAGCACTTATTAAGGTTTGGAGATAGCTCTTGATGCAGTCTCCAGTGCCATACTGCCTTCGCATCACATGCTATTGAGAAAGTTTTGCAAAACTCGATATGCATGCACGAATGTTGATATGTGTGCACGAATGTTGATATCCTTTAATTGAAGGCAAAAAAATGAAATAAGGAGGTGCAGCGAGCAATGTGGTGGTGGGGAATAACTCCCCTAATTTATTTGATCTATTTTATTGGATTTAGAGTGAATTATGAAAAATTCAATCCATAATTATCCTTAAACGAAGACATAATACGGTTAGCATGGGTGTAAACACTCATAAACTACTCTTTCACCGATGCCTACGATGGCCGTATAGAGTTATGATAAACAAAAGAAAAATAAGAGTTTTTAGAAGAAAAAAAGTTCTCATCTTTAGAAGCATCGATTAATTTCCTATTTATAGTAAAATGGATTGTATAAAATAACAAAGTTAGGGAAAAAATTGATTGAATTTCTTCTTTTTAAATTATGAGCAACAAAGCCCCTTTCTAGGCACACTGATATTATTGTGATTTTGTGTTCATTTTATCATTATCTCATTATTCATTTCTAATAATGTTCCCCTAGTTCATATAAAGGCATTTCAGCATAATAAGTTAAAATAATAATCATTAAATATATTTCTTAATTTAATTCCGCTTAAGAACAGCCTTCAGCTTCATTGACTCTAACTTAACGTCTAAACACTATATATATACCACACTTACTCGGACAAACTCCATGTAAATATTACAGATCAATTACTAATAATTTATTTATTCTTAATAAAATACGATTTTTAATTATTTATTATAGTTATAAAAAATATACATCATAATTAATTATGAATATGCCGTTTTATAACTATTCTTAATTGATTATATTAATAAAAAAAATACTTCAATATGTTTTTTTTTTAATTTTAATAATATATTTGTTTTTATTGGATTAGTGTACTTTCTATATTATCACGTATTTATTTTAATAATAGTAAATAAGATAAGCTTAAGATATAAAAATAAATTAAAAGATATAATAACTTGATTTAATTTATTATAGCTTGATTTTGTTTATATTTTCATAAATATCACCTTTTCATGATTTTAAAGGTATTAATATTTAATATTGATCTCACACTTGAATTTCATGTTTATTGAACTTTTTTGAGTTTGACAAAAATAATATATTTTGGATTGAGTAAATACATAAAACTTTAAACTTGAAAGTTAATAACTGTTATATGTGAACTAAGTTATTAAATAAATAATGTGTAACTATTAGGATGTGGAACAGTTAGGATGTGAGACTCTTACGTGTTACCATGATATAAAGTGTGAAGACTTTCATATTTTCGAAAAGTCATGCCTAGAAGCAAGGTTATCAAATTTGAGAGTTTATGTAAACTCGTGAGAATCAAGTAAACTTGACTTGTAAACTCAACTTGTAAACTCGTAAGAGTTTACTTCAGATGAAAAAAAAATTATATAAATAACATCTTAATTCAAATAAGTCTATAAAATTATATAACTTTAAATAAATAAAATATATAGTTATACTATTCATAAAAATAAATATTGTAAAACATAAATACTTGGATTATTGTCAGTAATTTGATGCATTTTATTAAATATATAACTTTCAAGGTCGCAGAATCACTCCAAACTCGCGATTTTATACGATCCTACCGATTTCACAGTCGATTCTACCGAGTATGCGCAGAAAAAGAGTTTACTTCCGAGTTAACTCGGAAGCCATGTCTGAGAACGTAAACTCGTACGAGTTAACTCGAGAGTTTGATAATCATGCTTATAAGTCATTTTTCTTAAAGAACGAGCACAACACTTTGTGCTTCATCTCTCGCGAGTAACCACCAAGATGGTGACACATCAGCCATTTTATTAAGTTTATTTAATGCAAAGAGACATTTTTCAACCAAAGACAATTATAACCAAACATCAAACATGCTATCCAGAAAACCCCTCAATACCTCACAAAAATCGAACAAGTGACCAAAATCACAACAAACTAAGCACTCCGAGGTTGACCTTAAAGACAAGGCATCCACAAGTTAACATCAAGTTTCAATACGGTCAAAGATAACCATCTATAGCATGGTTAAAGAATTAATCCACCTTTGAGCATAAGCCAACTACAACTTTGGTCAAAAAATTAATTATAGACACAACAAGTTCATTTCACTTGCTAATCAAACTTTTGAGTTTGGGAAGATTTGTACAGCTACCCACCTTAATAAACATGTTAAAGAGCCAATTCAACAAAACAAAACACATTCAACATTATATATTGTCCTTAATTGGATAATTAATATTGAGAAAGATATTTGTTTATTCTATTATTATTATTATTATTATTATATATATTAACAAAATAAATGGTCAAATATTGATTATAGCATATATTAATATCACAAGCATCATTTTATATCATACATCAACATAATATATGGTTAATCTAGTTAAATGGTATATTATTGTTGTTTTATCACAAATAGGATAAGTTTGTATTAGTGGTATTCTTTAATACTCTCCATTTTATAATATATTTCATGAGTCTAGGAATATTATAAACATTCATGGTATTTTCCTAAAAAATACAATATAATTTATATTTACTATTCTATTCTTATAAATCTTAAAATTCTTTTATATTTAATTTGAGTGTTGAATAGTCTATTATAATAGTCTTTTATAGATAGATTTTCTTTTATTCTAATTATTAAAAGGTTTAATAGCCAATTTAGTCCTCATTTTGGTTGAAAAATCTCAATTTAGTCCCTCGTTATAAAAGTGTTTTGAATTAGTCCTAACTTTTAAAATAGTGGGTCAGATTGGTCCTTTCTGTTAAATATAAGTTAACAAAATTAATGGATGATGATGTGACACAACTTAAAGCTAACGAGGGACCAATCTAACACATCAGCTTTAAGCTGTGTCACATCATCATCGATTAATTTCGTTAACTTATATTTAACGAAAGGGACGAATCTGACCCACTATTTTAAAAGTTAGGACTAATGTAAAACACTTTTATAACGAGGGACTAAATTGAGATTTTTCAACCAAAGTGGGGACTAAATTGGCTATTAAACCTTATTAAAAATATTTAAACCACCACTTAAATTTTATCATACGAAGGTTCATACTCTATATCCCTGAAAGATAAACTGAAACGGATCATATTAAATTTTTACCACTTTCAAGCACATAAAGTAGTGTTTGGATTTCTCATCAATACCTATTACTTTAGACAGTATAATATCTTTTATTTTACAACTAAATTAATTAACAAAGATATTGATTTTACAGCTAAAATTTTCTATCTTGGAGAAGTTAATTAAAGGGACCTAAATAACACATATCTTGATTTTTTTGTGCAGTGGTCCTTTCCTTTCCCTCATTTTCTATTTTGTTCAAATGCCTGACTTTTCTTCTTTCTTTCTTCACTGCCACTCTTTCATAGTTGACAGAGGAATTGATAATTAATGGACACTCTTTTGCATATTTTTCTTCACCCGCTCATGAAATTCAAATTCACTCCAAGATACTATTAATGTCTTTTATATATACAATTTTTTTTAAATTATTATTCACTTCAACTTTTTTTTATCTGAACATTCGTTGTTGCATACTTAGAGTTTATATTTAAAATAATTTCATCTTAGTTCATCCTCATGTTTGTTATTGACTGATATTTATCCAAGACAAATTCTTTTTGTCTGTTATCTTTTTTTTTCATAATAATATAATAAAATAAATTCATAGAAATGTAAAAGTATGAACATTTTTAATGGATAAGTCTTCCATCACATCAAACTCCGTAATGAGCCAAGGAAAAAACAGCACAGAAAAAAAGGGAACACGCCATAGTTGTTAATGAGTAGAGGGAAATACTACACTTTTCACTTGAATAATCAACGCAGACCCATTCTTTCTCACAACTCACTCTAATTAGAGACACTTTAGTCTTTCTTCTTACAATTTTTTTAAGCTCATTTTTAGAAGAATTATGTTGTTAAATAACTGTGTAATCTATTTTTTGTCTGTTAGTTTTCTCTTAGATTAAATTTAAAATAAAAATCATTTAACTATCTTGTGAAAACATGTTTTCTCAATTATTATTTTTAAACAAAATTTATATTTGAGATTTAGTTCCAAAAATCCAAATAGCGGAACATATATTTTAATTATGTTTAATTATTTAAATAGCGTGTTATCTAATTCACTGTACTTAATAAAGATAACTAAACTTTCGGTGGAGACCAGAACAATAGTATAAAAACTAAATTGAATTAGAAGAGGAAAATAAAAGGAAAAATTAAATTTCATACTGGGTACCCAAACAGTGTTATAAAGTAGCAACCAAAGAATTTTAGTTCAACCTATTAATCACTTGACATTTAGTGCTATAAAATGGGTTAGAATTCATGAATTAATATGACGCGGGATGAGGTTAAGTTTAAAAAAATATAAATTTTTTATACGAATTAATTTTCAAACCAATCCACGGATTCATCCGAGTTAAAACTGTGATGAGTCATCACCTATTTAATTTAATTTAATAATTTAATTTAATTAGTTATTATTTTGAGTTTTAATATTATTAGTTAACATTATTTTTATTATATGGTAGATAAGATAAATAAAATGTTTCAAGAAAATAAAGTATTATAAATTTATCCATTCAAAACTCTAATATTATAAATGGATAAGTAACACACAAATAATCAATATTAGAAATTTATTTTTTATTTTTTGTATTTTTTTTAGATTATATTTGAATTGTATGATACTTTTATTTTATTTATTTCGAATTATCTTTAGAGTTCAACATCATTTTAGAGTTAAATTTATAAAAATTTCAATTACAAAAACTGTAATTTTTTTAATTTGAAAAAAATAAATTTGTAGTTAAGTGAACTGCAATTCCTTTGACCCATCACCTAGGTCAGGAATTTTTTTAATTTGTTAATAACTAAGCCGTGTGAAGTTTACTCACTAAAATGATCAACCCATAATCGTGGAGAGGTTTACTCATTTTGAGAGCACTGATCCTGTACCAATAAAAGCTGATTCATATCTCACAAGACTCTAAATTAGTAGCAACATCCTATTGTTGATTACTTCTGAATCCCAGTAGACAACCAATATGGCTATGCATACATTAAGGTCATTTTCCTGTTTCTGTGTCTGTTGTCTCCTCCTCGTAGCAACTTTTATGTCTGGAGTCAGTGCCGATAACAATGCACAAAAGTTCCATTACTTCTGTAATCATAATAACGATAGAGGAAACTACACAGCCAACAGCACGTATGAGACCAACCTCAACACTCTTTTGTCCACTCTCACTTCCAACACAGAAATCGAGTACGGTTTCTACAATCTCACAAAGGGCGAAAACACTGACCAAGTCTACGCCATTGGGCTGTGTAGAGGAGACGTTAAGCCATATGAATGCCGCAACTGCCTTGAACATTCCAGAGGCAATCTCAGTCAGCTTTGTCCAAATCGAAAGGAAGCAATTGGTTGGTACGAGGACGAGCAGTGCATGTTGCGCTACTCAAACCGCAAAATATTGGGTCTTATGGAAACTGAACCTGTGTATTTTATGTGGAATGTAATTGATGCCCCGCAAGTGGAGGAGTTCAATAAAGTGGTAAAGGACTTGCTTGATGGGTTGAGGAGCAAAGCTGCATCAGGAGACTCTCGTACCAAATATGCTACAGCAAATGCAACTGCACCAGATAACAAATTCATTTACGGGCTTGTGCAGTGCACGCCTGATTTGTCTGGACCCGACTGCGAAAATTGCTTGATTCAATCCATCAATGAAATCACAAATTGTTGCCACGGTAAAATAGGAACTAGAATTGTTAGACCCAGTTGCACTCTGAGATATGAAACTTCCTCTCCCTTCTTTGGGGCTCAAGCATATATACCATCACCATCACTGTCACCGTCGCTCTCGCAACCTCCTATGGTCACTACTAACACTTCCGCGGAAGGTAGCTTATTTCCATTTCTAATAAGAATTTAATTAATGATGATCAATAGCGTAAAATAATTATTATTTAATAACAAATCAGTGTTAACTTTTATTATTATAAAAATTAATTAACCGATGATAATGTAAATGTGTAGTTCTTATTTTAATTATATGATATCCCTTAGATGTATATTTCTAGTCACTGGATAATTGTGGTTTATTATGCAGATAAGCGCCATGCGTCAGGAAGTAATTATGCAGATATAGTCTCGTCCATACTGTTGTTTTGTTGTTTGTTGTATCCTTTTCTGTTTTTGTTTGAGTGAGGAAGCCAGGAGAAGATGTTTTGAGAGTAATTCTACTTAGCATATATAGCTTCTTCATCAGGAGAATCTTGTCCTAAATATGCTGCAGCAAGTTAGTTCAGTTGTAACTTTGGAGACAACTTTCCCCTTTGTGTGTGTAATTTTGTAGACTTCATTTTGATTAATTAAAGACTCAAAACTGTCAAATTAAGTTTCAGAATAATAAAGGAAAAAGTACAATTTGAATCTGATATGAAAAATAAAGAATTTACAAAATAAGAATAGATATATATTAACAATGAAGTTCATAAGCACGGACAACTCTTACGTAAGACTATAAGTGACAACTAACATTCCCCGTCTAAAAAGAAAAAAAAAATTAGTTAACTGGAAGTAGTTCAAAACATTTTAACTAACTTATTAAGAGATAATTGATACGACCATCTTTATGTGAGCCATTAAATACTTTAGCTCAATAGACATTCTATTCTATTAGAGCATGTAAGCTATTCTTTTTTCTAACAGAGTTTAATATTTTTTTCTTAACTCAACTTAACCTTTTATCAAAAGTTTAATTTCTAAAATACAACTAAGCTATTTGTCTTAACTAAATTAACATATAATCAACTTCATCAAATAAGAAAAAAATAATATTTTGGATGAATGAATTGTTAGGTAAACTTGAATGGAATAAAGTTAAGGGTATTTAATCTAATATGTTTAGAAGTTTTGTCAGTTTTAGAGTAAAATGATAAGAAATTTATTATATTGTAAGAGTCAAGAAAGTTATCAAAGCTCTCAAAGTGTTAGAAATCGAGAATGCTAGCAAATATTGAAGTTTGGTTGAAAGCCTTTGTTATTTAATGAATACAAGGCCAGACTTTCTATAAAATGTTAGAATAGTAAATTGAAATATGGAGGAGTCATGATACACACATTGGAAAACCTTGAGATATGTCCGGGGAATTATGTCACTCAACCTAGGTCGAACAACTCCCACCTAGTAAGATACTTAGACAATGATTGCACAAAGATGGGCAACACAATGTTGACATGGTTCTCAAAAAAGCAACCAATAATAACATTGTCTACGTTATGTTACAACATTATGGACTGTGCAATATCACGTAGAAATCTTCTAAACAAATTAGAAAATATTTTAAGTAGATAACAAGTTAGCAACTTAGGTTACAAAGAACTCGGTCAACTATGAGAAGAACAATTACATTGATGTACATTTTATTTTATTTAAGAGCATGTCAAAGAAGACATTATAGATAACCGTGTATATAGGAAGTCGTAAACCAGTTGTAGATATATTTACAAAGTTATGTTATTCAATAATTACAAAAAGCTAAGTGGAATAAATGATGAAAAAAATATACAATAAAGTTTTGTTAGATAAATTTAAATAAAATAAAATTAAATGAGTTGTTTTATGAATAGTTAATTTGTTTGAATATTTTGTCTCTGCTGTACTGCAAGGGTTAAAAATTTATTGGTTAATAGATAATAATTGTTTTGATAGCAGAATTTAAGACTTAGATATGAAAAATAAAAAATATAATATATAAATTATAATGTTTGATTGCATAAAATACATATAAAATACGTGAATAAATTATTCACAAAAGCTTGATTTGTTAACATGAATAAGGAGTAAAGAGTGAGGTGCCTTATTAATCACTTATTACATGATTCATTTGTAAAACTCGAGTAATATGATCTCTAATTCATTAGTTGTCATACGAATAAGTGTGTTATTATCGAAGAGGAGCATGACATAGTACTTTTAAGAAACCAGAATTGTTGAAAATGAGGGAATATTCATCCAAAAAAATAGAATATAAGTATAAAGTTATTGAATAAGAGAATTGAGTTAGTATACAATATAATTTGAGAGTTGCTCCTTCACCACCACCAACCGCTCTCTGCACCACCCCATACTTAATTTGTTCTTGTTATAAAACGGATGTTAACATCCGTTTCACTTTCAACGAACGTTGACATTCGTTTACATATTTTATATTTTAGTTTATTATTTTTATTTAAAAAAAAACTTCAACGGATGTGACCACATCCGTTTAATAGATTTTTAAAAAATATTTTATTTACTATTTAAATAATAATATATAAATTAAATTAATAATAATTATTTTATTAAATAAAATAAATTTAATTTAATTTATAAATAATTAAGTATTAATTTAAAAAAATTAAATAATATTTATACATTAATTTAAAATAAAAAAAATAAAAAAACTAAAAATTAAAAAAAAAAACTAATTCAACAGATGTCGCCACATCGATGTGGCAATTCGTTTAGTAGATTTATAACAAAAATTTAATTTATTATTTAAATAATAATATATAAATTAAATTAATAATAATTATTTTATTAAAGAAAATAAAATTAATTTATAAATAATTAAGTAATAATTTAAAAATAAAATACAAAAAATTAAAAAACTAAAAACTATAAAAAAAGAAAACAAATTCAACGTCCGTTTTAATATATTTATAAAAAATATTTTAATTATTATTTAAATAATAATACATAAATTAAATTAATAATTATTATTTTATTAAATAAAATAAAATTAATTTATAAATAATTAAGTAATAATTTTTAAAAAAATTAATTTATATATTAATTTAAAATACAATAAATTAAAAAACTAAAAATTTAAAAAAAAAAAACTCAATGGATGTGGTACGTCCGTTGAAGAAGGATATTGACATCGGTTGAAAAAAAGAAGTGGGGTGTAGGATATTTTAAAATATAAAGGATAATTTTAGAATTTAAAAAAAATGTGGTGGTACAGGGAATAAAGTTGGATAGTGTAGGGAGTAATCCTCGTATAATTTTGAATTTATAGGCTTTTGGGCCTAATAATTTTTGTTCATGTACATAAAAAATCACTTATATTTAAACCGGACTACCACCTATCTAATATTTGAACATTTCCCACACACGATTGCTTAAAATAGAGGGCGTTGCTCCCTCCACCCCCACACATCTCCTCCTCCACCTCCCCTTTACTATTTTGCCCTTTCCTCCACCTTTCTTTTACTATTTTGCCCCTCAGTAAAATTTTATTTTTAAAATTATTGTTTTTTAATTTTATTCATTTATAACATATTTCACTGATAACCTGATAACCTACGTAGTTCCTTGTATGAGTAAAATATTTTTCTGCAAAGCTTGGTAATCGTGAAAAAAATTATCAAGCAATCTTCCTCTTGTTCTCGGTGCAGTACGTGGTGCAGTGCGTTTGTGGTGTAGTGTCCTTGTCGTGGTTCCTCTCCAGGTACGTAGTCATAATCCTTCCAATAATCCTAAACCCTAAACTCTTCCCATACTTCCAATAATCCTTTTAATATCCAAGCCTATAATCCTTGCATGAGCTGCAAAACGTAGTAAAATAAAAACGAAACGTAAAAGGAACACTGCCTCTGGACGGATGACATCCTTCAACGGATGTCAACATCCGTTTAAGGCGAAACGGATGTCGACATCCGTTTAAGGCGAAACGGATGTCGACATCCGTTTAAGGCGAAACGGATGTCGACATCCGTTTTTAGTTTTATACCTTTTTTACCTTCAGAGAGGGTAAAAAGAAGAGCGGAAGTTGGATGAATCAAGCTAGCAAAACTAAAGGTCCTGATTATATTCACCATGCTGTTGCCCAGATGAAGGTTTCTGGTTCACAGCATTACGCTTCACCAAGACAGAATTGCGTGGACTCCAATTCCAATAAGGAGTTTGTTTTGTTTTCTGTAAAGCTAAAGCAGGGAGATGCTCAGGTCACTGACTATGAACCAAAGGACGAGCTTGCTGCCATTGTTGTCAAATCACCCAAGGCTATCGACTTTATCAATTATGCACATCAGAGTAGTCGCCAGAATGACATAATTAATTAAAATAGGAAAAAGTAAATTTAAAATATTAAAATAAAAAAAGTAAAAAAATTTAACTTTAGGACATAATTGGAATTATATAAAATTGGATTAGGACATAATTGGAATTATATAAAATTGGGGAGGTGGAGGGAGAAGCATGTGGGGGTGGAGGGAGCAACGCCCTAAAATAGATAATATTTGAATGAAAGATACAAGAAACATCAAAACCGCGTTTTATTTGAAAAGGGACAACAAAAAGTAGAAGTGGTTGACTTGAGTCTCCCTCAGTCTCAGTCAACATAACTACTCAGTTTTTCTAATAAATAACTTTTCATGAAAAAAGTTAAATAAAATATGCCTAAAGAATTAAAACAAAAGCATATCAGAGAAAAACATATAAATTTGAAATGAGTTATCCAAACTGCGCATCTGTTTAATAACCAATAAGATGTTATGGTCAAAATTCTTAGCAAATAAAAAATATATAAAATTGAGACACGGAAACTGAAACTCGTCGTTTTCATCGATCTTCATGAATTTTTCTACAGCAGTAACCAATCACGCAAGATCTTTTATTTATTTAAACTTCTTCGATTGACAAGATTTTAATTTTGCTTGTGACCTTCCATGACATTTCCACGAAACACCATGACGGTCTTCTTACTCAACACCCAACAAAGAAGATACATTATAAATTACGCTATTTTATTTTATTTTATGCATTCCATCAATGGATGTCACTCTTTTAATTAACATGGAATGATAATTGAGAAATTAAATAGAAACTCGCTCATTTCTATACCTTCAATATCGTTCCTGTGTTCATTCTTTACTGAAAGTTCCTCTATCTTGTGTCTTTTTCATAATAAAAAATAAAAAACTGTACAAACGGTAAAGTATATAAAATCATCCAACTTACATTTTAATTGAAGAAATAACAAAAATAGAAAGGTGGAATTATTAAGTCCTCTTCGGGTCAGTCAACAATGCTTAAGAATTTGCTATTGGAAACCTGTTAAGACCAATATTGGCCCCTTCACATCAAGGTTCTACGCACTAAATTGAAAGAGTCTTGCTTTTGGAAAAAAGAAAAACTAAATTTCACACTGGGTACCCAAATAGTGTTATAGCAACCACAGAATTTTGACTCAGCCAATTAATCACTTGACATCCTATGCCAATAAAAGCTGATTCATATCTCACAAGACTCTAAATTGGTAGTAACATCCTATTGTTGATTACTTCTGAATCCTAGAGGACAATCAATATGGCTGTGCTAACATTAAGGTATTTTTCCTGTGTCTGTCTCCTCCTAGTAACAATTTTTATGTCTGGAGTCAGTGCCGATAACAATACACAAAACTTCCACTACTTCTGCGATCATACAAACGATAGAGGAAACTACACAGCCAACAGCACCTATGGGACCAACCTCAACACTCTTTTGACCACTCTAACTTCCAACACAGAAATCGAATACGGTTTCTACAATCTCACAAAGGGCGAAAACACTGACCAAGTCTACGCCATTGGTCTGTGTAGAGGAGACGTTAAGCCATATGAATGCCGCAACTGCCTTGAACATTCCAGAGGCAATCTCAGTCAGCTTTGTCCAAATCGAAAGGAAGCAATTGGTTGGTACGAGGACGAGAAGTGCATGTTGCGCTACTCAGACCGCAAAATATTGGGTCTTATGGAAACTGGACCTGCGTATTTTGCGTGGAGTTCAATTAATGCAACGCAAGCGGAGGAGTTCAATAAAGTGGTAAAGGACTTGCTTGATGGGTTGAGGAGCAAAGCTGCATCAGGAGACTCTCGTACCAAATATGCTACAGCAAATGCAACTGCACCAGATAACAAATTCATTTACGGGCTTGTGCAGTGCACGCCTGATTTGTCTGGACCAGACTGCGATAACTGCTTGCTTCAATCCATCAATGAAGTCCCAAATTGTTGCCATAGTAAAATAGGAACTAGAATTGTTAGACCCAGTTGCAATCTGAGATATGAAACTTCCTCTCTCTTCTATGGGGCTCAAACATATACACCACCACCACCACCCACACCCTCACCATCACCATCTTTTTCGCCACCTTCTATGGCCACTACTAACACTTCCGCAGAAGGTACTTGTCAAATTATGCTTATTTCCACTTCTACTAAAAGTTTAATGATGATTAATAGCGTAAAATAATTATTATTTCATAACAAATCACTGTTAGCTTTTATTGTTATAAAATTTAATTAACCGATTATAGTGTAAATGTATAGTTCGTTTTTTAATTATGTAATATCCCTTAGATGTATATTTCACGTCACTGGATTATTCTGGTTTATTATGCAGATAAGCGCGATGCGTCAGGAAGTACTTCTGCAGATATAGTCTGGTCCATACTGTTGTGTTGTTTTGTTGTGTCCTTTTCTGTTTTTGTTTGAGAGAGAGGAATGTTTTGAAAGTATTTCTACTTAGATACATGGCTGCATCATCAGAAGAATCTGGTCGTAAATATGCTGCAGCAACTTCATTTGTAACTTTGGAGACAACTTTCCCCTTTGTGTGTGTAAACTTTTATTGTTTTTAATTTTGTAAACTTCATTTTAAGGAATAATACAATTATTAGAAAAAATATATTTGTATCTGTAAAAGAAAAAAAAAAGAAATTAAAAGGTAAAATATAATAAATATAAAGTGAGTTTAAAAGTTTGTTTGGTAACAAATATAGTACATTCAGAATAATAAAGGAAAAGTAAAAAATCTCTATAAATCTGATATGAAGAATAAAGAATTTACGAAATAAAAATAGATATGAGTAATGTTATGGTATATTAACAATTAAGCTCACAAGTATAGACAAGTGTTATATATAAGCCTATAACGTGTTACAAGTCAGTTACTTAATTGGAAGTAGCTCAAAACATTTTAATTAACTTAACAAAAGATAATTGATACTAGACGGTCTTTATTTGCTTCATTTAATACTTTTGTCCAGTACTCTCTCTCTCTCTCTAATGCTTAGGTTAAACACATACAAGGATGAGTACAAATGGGACCTTTGAAATTTTTTTATTTAATTCATTAAAAGAAGATCGAAAGTGCATTTGTTATATGATTTCAACAACTTTTTTTCTTTGGAATGACTTTTTCTTTTACAATAATACATTATCTGGGATTAACATTTCCTTGAATTTTTACCTAATCATATTAAACAACAAAGACCGATGAAAATTTTAATAAAATGTTCATGATTAACATGTATAAATTTGTATTTTAAAAATAAATACTTAGTTTTCTATTTAATGTAGCTTAAATTAATATGTATATCTATGAAATTATTGAAGAATTTTATATCATCCCTATGAACAAAGTAAAAACTTTTGATATACATTTTAGCAACAAAATTTATTCGATAGAAATATCTTTCAGTAATAACAATTCATGATTATCAATATATTTATTGATGGATCCATTATTGGTACATATTTTTGTTTATAAAAGTGTCACTACACTAAACTAATTTCAGATGCTAGTTTCCAAAATCAATTGTTAGGTCAGTATTTTTGTGGCTGACCGGACTTGTTCTACTCTTTGGATTGGTGATTGGTTATTCGAGCTTATACATGCCTAATCATCTTATTTGGTGGTTAATTAGTCTCAATGACTTGAGTTCCGAACTGTGAGACATCAATCTGAGTTTGTGTATGATTAGTCAACTTGTTTGATGTTTGGTCAGACTCACTAGTTAGCACTCCAGGCTGTAGGACATTCATCCAAATTATGATCAATCAACCTGTTTAGTGTTTGGTTAGGTTCACTAGTTTGAGTTTCGAGTTGTAAGATAATGAACGATCCAGACTATTACATGATCAATCAACTTGTCTGATGACTAATCAGTAACCAGATTCATTAACTACTCAGACTATGGTTGACCGTTCAAACTGTGGTTGACTAAACAACCATACAATGTACTAATTAATTTAAATTAAAATAAAAATGTTTTTAAGTAAGATGAATTCATTTGGGATATTTTGTCCACCATGAAAGACATAATGACATATATCTTCCTTTATTCACGTGCTATCTTAGTGGACATGCTTTTTTGCATATTTTTTAGTGGACTCCTCCCTTATCATTATTCTACATGATATTTTAACAACATTTTGTAACAACTTTTTGACAACAGATTATGTGTCACTATTTCATTGGTCCGTATATTTGAAATAGACCAATCACAAGCTACCACATAGGTTGTTGGTAAAAAGTTATAAAAAAAAGTTGTTAACAAACATTTTCCTATGTTAAAACAATAAGTTGCTACTTTCATTCATATTATAAGTAAAAGAAAATACATATTTTATTTAAATGTAAATAAATTTTGATAACATTTAGTTAAGTTAACAATACTTTTAAAAAATATATTTTAATTTTAAATAATATTTGACTTTTGATTATACTAATATAATATGTGTTTTAAATAAAAAGGTATTGTAGTATTAGATCATAATTTTTAATTACTAATTATTTATAGTATTCTAATAAATATGTTTTAAAAGACAATAAAATCTGATCATATTAAATTGAGATTATAAAAAAAATAAAAAAGAACAATTTGATATTTAAAATTATAGAAATTTCAATAAATTCCTTTTAATTAGATTTTTATGAGTTTTGTATAATGTTTTACTTGTATGTTTTCTCATAAAAACATTTTATTTAAACACGTCAAACTCGCCTTTTATGAAACCATTTTATTTAAGAAATTGACACTCATATCTTTCGTTAAATTTAAATACAAAGCAGGGAAAAAAAGTTTAATTTTTCCAAAAGTAAAAGTGTAAAATAAAATTAGTGTTTGAGGGGTATAGTAATGCTGTTGATAATATAAAGTGGTGTAAAAGTTCGTTTTTACAACTTACTCGAGCCATAAAACACATGATTATGATACAAATTAAGTTTAGATGTACTTTACTTACTTTTAACACTAACACACACTTAGTTTTCATTTTATATTATTTGGAAAGGTTAAAAAATTGAAAGAAGAAACACAAACCGAAGGAATTTGTTACTTTAACAACTTTCCATAACAATTTCTTGATAACGAGAATGTTATTTGTATAGTATAAAATATTAACCGAGTGGTTACAAACAACCAATCGGATATTCAGGTAATCTGTTTATATCTTATTCTGTTGGGCTTATATCAGCTCAGTATCCATGAGGTAAATTATAAATACAAAGCCAGGGCCAAAAGCCAGGTACGTTCCACTTACGCATTATTTACTCTACGTTACTCTCAAATACTCAATAGTGATAATCATTCACTAAATATTCAACCAAGAGCCGAGGCTCTTCAAATCACACGCCTAACTTGGGCGTCGGAGTACCTTTTGCAGGTACATCCTCCCTCGTCAAGAAGGAGACCGATCGGTTTGTGCCAACACCGATCGGCCAATAGCAGGAGTTTGGAAGCGAGCGAGCGGCCCAGACACGTCAGCAGGTTAGTCTCTCGGTCCCAAAAATATCTACCGAAACACTAACACACACTTAGTTTTCATTTTATATTATTTGGAAAGGTTAAAAAATTGAAAGAAGAAACACAAACCGAAGGAATTTGTTACTTTAACAACTTTCCATAACAATTTCTTGATAACGAGAATGTTATTATTTTATTGAGCTGTTTGAATTTATTTTAAAAAAAATATTTAAAATAGGTCATTCACAAACTATCATGTACATATTATAAAAAGTTATAAAATTTTTTTTTTTTCAAATTAAAAACCTAATCTTAGATAATTTCTTTTGTAGAAAAACATATCCTTAAACTCGTGCAATACTATTATCTACATAAACATAAGTTTTCCAATATACAGTGGAAGTGCATTCACAAAATACTATGCTACCATTATAAAAGTAATATATATTAATATAACACTTACAAAATGGGCCAGATCTGGTATTCTCCCATAATTAACCACGAAGACTTGAGCATATCTGATGTAAATTCCAAACAATGACATTTTTAATTTGTGAATACAAAATATTGGAGCGGTGAAAAAATAGATAACTCGGCTTGATCTGGCTCAGCCCACTATGGTCATTTGAGTCAATCCAATCCGGTTTATTTATTAATGGGCTAAAAAAATTAAAACTCGGTCCAACCCATCACGGATTGGTGGGTTAAACGGGACTTAATTATAAGTTTTTTTAAAATAAAAAATATATAAATTTTTTTAATTCAAATCTAAATAAATTCACTCTAAAATGATGTTAAACTCCAAAGATAATTCAAAATATAAAAAAATATCATACATTCCAAGCATAATCCAAAAATAAACACAAAAGGCATAAGTTTTTAATATTGATAATTTTTGTATCACTTGCACATAATTTATAATATTAGAGTCTTGAATAGATAAATCTATAATATTTTTCTCACTTGAAACATTTTTTTTATCCCGTCTACGATATAATAAAAAAAATGTTAACTAATAATATTGAAACAAAATAATAAATAATTAAATTAAATTAGGTGAGTTGGTAAGCCAAACTCACCACGGGTTCAACTCGGATGAGCCTAGTTCTAAACGAGCCGAATTGAAAACTAACCCGCATAAAAAAATTACATTTTTCTCAAACCCAATCTGGTTCAAATCTGTGATAGGTCGAATTGACTCGTGGATTATAACCCATTTTGACAACACTACAAAAATATACACTCCAATTTAAACAAACATTATTTTTGGGTAACATGGATTGGCATTTTAGCTCTACCCGACTCTTATTGGAAGAAGATTTTAAATGGAACTCAATATACTAAAACACAACCCTTGATTTTCTTCTTTTTTTTAAACCACCTTAAGTCAATTAAAAGCTGAAATTTGAGTTCAAGTTGAGTTTGTTAAAAAAAATTATTATAAACACGGCTAAAAGAGAAAATTAAAAAAATTAATTAAATTTTAAATTTATGATAAATTTGAGAACTTTTAATTAAATTTTTAATAATTATTTGGGTTTTATTAAGTTTTCCCTTTTTTTTAATTGTGGTTTACTATTGTTTAGGAGAGATAAGAAAAATAATATTTTTTATTTTATTTTAACAAAATATTTACAATATTTTGTTATTTTATAATTAACTTTTTATATTATAATTTATTTAGGTAAAGTAATTAAAATTAATAAGGATATAAACGACAAAAAAAGCTGATTAATTTAGCTCAAAAAATTAGAGATCTTGTAGTTAAACAATTGTTGAAATTTCATGGAAAGTGTTGCATTTGACTAATACAAGGCAAACTGAAATTGAAAACGTCAATGATACGTGAAGAAGCTAGTAACTACGGAAGTTTCATCGACTTAATCACCAAACTTATTCTATCTGATAAAGGTTCCTCAAATCCCATTTTTTTTCTTATTCCTCACAAAACAATCAACAATCCAACATGGCTCAGCTTTCGCCAAGGCTACTTTACTTTCTCTTTTTTCTTCTGATAACAAATTCTATATCTCAAGTTACAGCAGCCAACACTACACAAAACTTCCACTACTTCTGTGATCATGATAACGATAGAGGAGACTACACGGCCAACAGCACCTACCACACCAACCTCAACACCCTTTTGTCCACTCTCGTTTCCAATAAAGAAATCTATTACGGTTTCTACAATTTCACAAACGGCGAAAACACTGATAAAGTGTACGCCATTGGGGTGTGTAGAGGAGATGTTGAGCCAGAGAACTGCCGCACATGCCTCAACGGTTCCAGGACCAATCTCACTGAACTTTGTCCAAACCGAAAGGAAGCAATTGGTTGGTACGAGGATGAGCAGTGTATGTTGCGCTACTCAGACCGCAATATATTCGGCCTTATGGAAATTGGACCAGCTTTTTATGCTAACAATGACAAAAATGCATCGGATTTGGATGAGTTCAATGAAGATGTCAACACCTTGCTACGTAACCTAAGCGGCATAGCTGCATCAGGTGACTCTCGTGTTAAGTATGCTGCAGATGGTATATCATCAGGTTCAAAGGTCATATATGGTCTAGTTCAGTGCACACCGGACTTGGAAGAGTCAGAGTGCGCTGATTGCTTGTCTCAGTCCATTGAACGTATCCCAATAGATTGCTGTAAAGACAAGATAGGTGGTAGGGTTGTTAGACCGAGTTGTAATATGAGGTTCGAAACCTCCTTTAAGTTCTATGGAGATCCCGCATTTGTACCACCAGCTCCTCCTCCTTCCACCACGGGTACTACTTCTTATACTATCTTAATTAATTCTATTGCTCTTTCTGAACTAAACTCATGCATGTACAGTTTTTACCTGTGTTACAGAATTTATTTAAACATTTTCTTCTACCACCTCTAGTGTGGTAGTTTGGTTAAATGTGGTTTTCGGGTGTGTTTACACTTATATCTATCTACATGTTGACTAAGTTGGTCAAACAGCGTGTATATATAGATCACCCAATATGGTACTCAACTAAGACAGCTTTTAGGTAATAAGGTCGATAATTGTCTGGTTTTGTTTTCCATATTCATAATACAGAAAAAAGTAATATGCTCTTAGGTAGCCAAAAAATCGATAAATACATAGTGAGAGAGTGAAAATAATAGACCGTCAAATGCTAACAGACAACTAGTACCAGTGGGAGATAAAAAATATATTGATACTCGTGGTGGTAGCGAGATCCCTCATTTTGTGAGACACTAACAATATACCCTTATGTGTCTTTATTTATTATTATTTTACGTGTTTTTAAATCTATATTTATGAGATTACTGATTGTAAATATTGTGTAATTAGTTAAATTATCTCATTTATGTTATATATAAATTCTTTGCTCATAAAAAAAAGGGTTGGATGGAAGTTGAGACTGCTCTGTGTTTTCAGATATCTTTTTCCTTCAAATTATGTCTAATACAATGCAATAAAAAAAACCGTGTTGAGATGGCCTTAATAATTAGTTATTGGATTTGTTGATGTTTTATATATGGTATTTATCTGCGGAATGTCCCTCTGAGGATTCTGATTTGTGCAGGAAAGAGCAACGCAACTATCATCGTCATAGCAGTAACAGTACCAGTTGTTGTAATTGTTTTCGCGGTGCTTATTTTTATCTACATTCTTTTAACAGCGAGGAAGCCACGGAAAAAGTTTGAAAGTAAGTGGAACCACTGGTTTAAATACTATGTAATGGTTATTGCAGCGATTTAAATACTATACAACTCAATCTAACATCATAACTTGATCGAAATATTTGCAGATAGATATATCAAGTTTGTTAAAAGAGTGATTCCTAAAATTAAATCGTGTGAGAGATAAAGAGCCCAGTTTGGAAATTAAAAATCAAATAACTAATTCAAAACATGCTTTTACTCAATTGCTGTTAGGAACAGTCAACTGCAGGGGAAGTCAGTAACCATTTAAAATTGGGGCAATGACATATTAACACGTATTCTTTTACAATATTTTGAAATGTTATAAAAAAATATGTATCAAAAACATGTTTTTCCTTGTAAAATTACAACGTTACTTTTAGACTGCATTGAATTTTTTATAAGTTCATTGGGAGAAAGGTTATTTTATGATTGCTCTGGCATCACGCAACAGAAACTTACTATTTTAAAACCATTCCCTATGTGAAGTTCAACAAGAAGAAGTAGATGATGATGGTGGTGGTGATGGAATTGACGCTTCTGAGCCATTGCAAATCAGATTTAACATGATACGAGATGCTACAAATGACTTTTCTGATTCTAATAAACTCGGAGAGGGTGGATTTGGAGCTGTTTACAGGGTATAACTTCTTCAAAATATGGTATACATACATAGGCTACTTGCAGACAACTTACCGTTCCTTACTGATATATTTTCAGGGTACGCTACCCAATGGACAAGAGATTGCCGTCAAAAGGTTGTCAGCTAATTCTAGACAAGGAGATGCAGAGTTCAAGAATGAGGTGCTTTTAGTGGCCAAACTTCAGCACCGAAATTTAGTTAGACTACTTGGTTTCTGTCTGGAAGGAAGAGAAAAGCTACTTGTCTATGAATTTGTTCCAAATAAAAGCCTTGATTACTTCATATTTGGTAGGTTAAATTTCAGTGTCTGGTTAATTGGACCATACCTCTGCTATTTCTGTTATGGCTTGATACTTGGCTCAATTACATAGTCTTAACATAAGTATGTCTTGTCTGTGTAAATTTAGATGAAACCAAGAGAGCACAATTAGATTGGGATAGGCGATTCAAAATCATTGCAGGTACTGCTCGAGGTATTCTCTACCTCCACCAAGATTCTCGATTGCGCATTATCCATCGTGATCTCAAAGCTGGTAACATTCTCTTAGACGAAGAGATGAACCCTAAGATAGCAGATTTTGGCTTGGCAAGGTTATTTGTTGTGGACCAAACTCATGAAGATACACAGAGAGTTGTTGGGACATAGTAAGTAGTAAAACTTAGCTTAATAATGTTTAGGTTTAGCAATTGAAAACTGCGATATATATTCGAAGATGATTGTAAAATGGTTTTGTTTAACTAAGTTTGTTCATACCCCACTCTGATGCAGTGGATATATGGCACCTGAGTATGCGTTGCATGGACAGTTTTCAGAGAAGTCAGATGTTTTTAGTTTTGGTGTATTGATTCTTGAGATTGTAAGTGGCCAGAAAATCAGTAGCATTCAACATGGAGAGGAAACGGGAGATCTACGCGATATTGTAAGTCGGAATTTTGTTCCATTTATGTTGTTTAGCGTTGGAAGTATGAAATTTGAGAAGCTTACGTGAGTGAAAAAATTGATGCATGCATGCAGGCATGGCGAAGTTGGAGGGAAGGAAGAGCAAGAAATATTGTAGATCCTACATTAAACAATGGTTCAGAAAGTGAAATAATGAGATGCGTCCATATTGGGTTACTGTGTGTTCAAGACAATGCAGCTGCGAGACCCACCATGGCTTCCGTTGTAGCCATGCTGAATAGTCATTCTTTCAGTCTTCAAGTACCTGTGGCACCTGCACTTTATGGGAATGCCATGTCTGGAATCTTTGCAGACATGCAGTTATGGGAGATTAATTCAGGGACGACAAGATCAAGAGAATCCACCAATAGATCAGACCAAGATTCCATCAATGAGGCTTCAATTACTGACCCATATCCTCGCTAG